Liquid-collecting system



pr 1929- I G. G. EARL a 1,710,048

LIQUID COLLECTING SYSTEM Filed May 27, 1927 3 Sheets-Sheet 1 I VENTOR g $4- ATTORNEY- April 23, 1929. EARL LIQUID COLLECTING SYSTEM 3 Shee ts-Sheet 2 Filed May 27, 1927 INVENTOR BY I :6 ATTORNEYQ.

April 23, G. G. EARL 1,710,048

LIQUID COLLECTING SYSTEM 4 ATTORNEY Patented Apr. 23, 1929.

UNITED STATES GOODELL EARL, 0]?

NEW URLEANS, LOUISIANA.

LIQUID-GOLLECTING SYSTEM.

Application filed May 27,

lily invention relates to liquid collecting systems and is particularly applicable to liquid collecting systems employed for the continuous collection of sewage and drainage.

The construction of an adequate liquid collecting s *stem in a locality where large, nearly level areas exist, or where the collecting station is not lower in elevation than the areas served, is very expansive. and this is particularly true where the present population of the area scattered or the area comprises scattered groups of population, such POPUltttlOll requiring immediate servlce but in which area eventually a vastly denser population requiring a greater service may be located. Especially is this true vherc SOll conditions resulting from the presence of duiclisaud or such other conditions maltc deep excavations extremely costly and the enance of deep sewers expenswe and tlllllflilt.

Under conditions such as the above, where an adequate sewage system for the ultimate service provided for such an area, such an adequate s' stem is practically prohibitlve in first cost; it a system is installed at a moderate cost to take care of the present demand it is later "found to be inadequate for handling the ultima demand for service,

(J due to the griiawth of population in the area served. a much gr ater demand is put upon the system.

it is an object, therefore, of my present invcntion to provide a system which Wlll be capable ct being installed at a nnnnnum cost for service in present sparsely settled regions and which ay be expanded from time to time as the population oi the area served increases. and in such a manner that the cost or ci'qiansiiui is relatively low compared with the edit of similarly exoanding the present l'znown systems.

Another object of: my invention is to prevent "he loss of liquid from the system by provi mg iii-cans to draw the same thru the comluiis pro ided under negative pressure oi suction S0-Cflll8h Another object of my invention is to proride liquid collecting system for purposes of collecting sewage or for draining outlying areas which comprises means for automatically governing the flows thru the system onduit so as to produce a suction draft con1- measurable with the quantity of liquid re- 1927. Serial NO. 194,611.

quired to be drained trom the system at any and all times.

Another oluectof my invention is to provide a system of this type having centralized efficiently operating controlling means whereby the necessity of installing and maintaining automatic apparatus comprising movable mechanical parts at outlying points need not be provided.

Another object of my invention is to provide a system wherein elhcient service can be given under otherwise unfavorable conditions of terrain son'ictimes encountered.

Other objects of my invention and the :in- V vention itself will be apparent from the following specification comprising drawings, in which drawin:

Fig. 1 shows a diagram or map in plan of a system comprising outlying liquid collecting wells and conduits leading therefrom to a central pump station;

Fig. 2 shows a diagram of a vertical section of the system or Fig. 1;

Fig. 3 shows diagrammatically, in vertical section, a view of a conduit line leading from a plurality of outlying collection wells to a central pumping station, and shows diagrammatically the controlling apparatus at the central station.

Fig. a shows diagrammatically the central station controlling apparatus;

Fig. 5 shows a modified form of apparatus adapted to be substituted for apparatus in the system of Figs. 3 and 4t; and

Fig. 6 shows a modified form of apparatus adapted to be substituted in the systems of Figs. 3 and 4 for apparatus shown therein.

Referring now to the differenttigures of the drawings and particularly to Figs. and l, at 1, I show a suction liquid collecting main such as a sewer pipe which is adapted to collect liquids which accumulate in a plurality of wells such as the wells 2, 3 and 4- disposed as to be traversed by the pipe 1, and in each of said wells I provide an intake pipe 5, having an upturned end 6. The wells are each preiferably of substantially the same depth from the surface 7 of the ground in the territory reserved by the suction liquid collecting main 1, and will be covered by man hole covers 8 arraiuied approximately flush with the surface of the ground in the usual manner.

At 9. I show a hydraulic pump adapted to draw liquids from the pipe 1 and expel the same into a discharge conduit 10 leading to a drainage canal or sewage disposal plant or to any suitable point where the collected liquids are to be expelled from the system. The pump 9 is, by the operation of apparatus or sently to be described, adapted to draw the liquids from the wells 2, 3 and 4 and other wells like them throughout the length oi the sewage main 1, the greatest lifting ellort being naturally exerted in those wells such as 4: which are nearest the pump 9, the lifting etlort being less and less progressive toward the outer end of the pipe 1.

In the system being described, it will be assumed that the well 4 represents a well relatively near the central pumping station, the well 2 near the end of the sewage main 1 and the well 3 being an intermediate well, and it is assumed, moreover, that other wells may be provided intermediate the wells just mentioned and beyond the well 2, if desired, but that in all cases due'to the action of thepump 9 under control of the apparatus at the central pumping station, a hydraulic gradient represented in Fig. 3 by the interrupted line X-X, will be produced indicating the liquid lifting power at the ditterent wells, the lower the level of the liquid lIlCllCil Qd at 11, the greater the lifting ellort at such well since it is assumed that the discharge from each of the wells will be in proportion to the lifting effort.

This hydraulic gradient may be varied from time to time due to sudden changes in the rate at which liquid is supplied at some of the wells, but in a short time the gradient will be restored, departing somewhat therefrom in case of a long sustained abnormal flow into certain of the wells.

At 13, I show a fluidpressure operated piston by which, as will be hereinafter explained, in connection with the discussion of the operation of the system, and wherein reference will be had to certain ap aratus not shown in Fig.2 but shown in Fig. 8, the pumping eii'ert of the pump 9 may be diminished or increased, the control apparatus generally shown to the right of the piston 13 automatically causing the movement of the piston 13 to the ri ht or to the left to diminish or to increase the pumping effort accordingto the demand of .the system.

It is, of course, apparent that during times of flood and severe rains in the territory served by the drainage system, the pumping effort will necessarily be required to be increased since the quantity of liquid removed trom'the wells depends solely upon the pumping effort. Therefore, I so arrange certain apparatus at the central station to control the-movement of the piston 13 in such a way that it will be responsive to the quantity or" liquid contained in the wells. particularly the more distant wells, to move the piston 13 as may be required to maintain between defi- 1 attic control oi the pumping cl'l'ort according: to the no em, particularly ale, as in a drainrovide in connection with the age system,

controlling a iparatus a" the central station,

a source or" fluid under pro: icatcd at 14, a float chai l 16 adapted to be raiser to the level of the uh valve l7 responsive to the mover float it) to admit more or less I chamber 15.5, the arr ement being sucl a COIL; ant liquid level .Ll iuaintainml in "he chamber 15. From the chamber 1 constant head, liquid will be l through the c uit 18 through a plura o1" orilices harem crown as tln'ee in number at 19, 20 and 521, being QlfcllVOl'Ctl into the ma in l at a point adjacent to and on the approach side of the pump 9. Any desired member of orifices such as those shown may be prmidcd, the number bcin determined by the head due to the height oi the liquid. level. L, and thev responsiveness of th hereinafter described as being movaole under the influence of liquid in the liquid column 22 disca iar new...)

. posed upright and conmumicating with the conduit 18 at a point between two of the oriflees in the conduit 18 such as between the orifices 19 and 20. By communicatiu the liquid in the colunm with a point inter 1 cdiate two of a plurality of oriliccs L: posed serially in the conduit 18. the liqu: resulting from such coinnum' ration will be caused to rise in the column to a height which determined 1e number of such oriticrs and reduced by imrcasing i'lu. number, and that the pressure indicated by the her. 1" d the water in such a column is proportioi the flow through the conduit 18.

At L a d l1. l indicate the maximum and minimum heights to which water mav rise in the column 22. At 23, I show second liquid cohunn ol preferably larger volume in which water may rise to the levcls nermissible in the column 22, that is, between maximum and minimum levels L, and L. and which will contain a certain amount 01'? liquid at all times. At 2%, I show a movable mem ber herein illustrated as a d aphrasnn disposed betwecn two fluid containiug cclls and 26, and ditlercutially operable according to the relative pressure in the two cells to more a valve 27 which controls the movement of piston The piston 13 as has been said will in turn control the pumping ellort of the 24 i s responsive to the height ot liquid in the columns 22 and 23, the mechanicul linlcuge 3O connecting the diaphragm 24lto the valve 27 being so arranged that upon an excess or pressure'in the column 22 over that in the column 23, the diaphragm moving toward the right as illustrated. will lift the rub 27 with its fluid controlling); pistons 88 anu 89 to POlHllt fluid under pressure to flow from the source 1 1 through conduits Ill, 32 and 33 and past the lifted piston 88 ot the valve 27 into tl e conduit which leads to the cylinder l4; entering: said cylinder on the right side of the piston 13 to communicate pressure tothe chamber 85 and to cause the piston 13 to move toward the left. This. as is shown in Fig. 4;, muses the piston rod 536 to move the arm 37 of an electrical rheostut having switch points such as shown at 38 to move to the lc'tt and to decrease the amount of electricul rosist ance 39 included in the circuit oi the source of electric current 40 and the e ectric motor 41 which is energized by curren oru the said source; The effect of decreasing the r :'--ista-nce in the motor circuit to increusc its speed and thereby the speed ot the pump 9 u'uieh is operated through :1 shat't 1-2 driven by the electric motor all; thus. Whenever the level oit liquid contained in the column increases, the r-sultant increase of the pressure on the diaphragm 24 causes the pump 5) to increusc its pumping effort on. the system and re will inunediatel be lowered with a consequent modification ot the control exercised by the diaphragm non the rheostut in the motor circuit to again (lCCF-CltStG its speer The speed of the motor is decreased in the same manner by a inoven'ient ot the piston 13 to the right instead of to the left, such movement being *aused b7 flu d "from the source ll pal sine; through uits 32., 3 and post the valve element 89 and through the conduit 43 pussineg into the chamber -:3 lllfilllll the 1- L1 J i. .p 4. Z i 4 1 .i oshu 21111] 3 to toe .5 t it to increase rue .tunce in the motor circuit. It Will be understood that the level in the column 22 is responsive :12) he srcui draft exerted by the pump 9 on its'inletside. the greuter the suction draft exercised by the ensive thereto the level in the column 22 motor 9, the lower the level of the liquid in the column end vice versa.

blow, order to accomplish the proper in exercise of cont= c r-- that f t to apparatus just rols the diaphi niust press .e in he c' I 14 V i sure is derived i'rocu the quid colui .1 23, and

this rluid pressure must in turn be a. measure oil? the reipu 'eiuents oi; the system served by the pump, cor sequent upon a given condition r1 zhe W lls the s ystci 1. That is Whenever quid in the column 3 must be of such a value relative to the pressure in the cell 25, opposin it thet the C iplirrqgni 52% responsive to the r iiierence of i l sure 1i tne cells 25 Till and 25 will rnove in thetdirection which Will, us hos been described, couseter pump 0 r w] c .LQO 1e also true that; consequent upon a revc prod i 'ned low level ct liquid in the more dis-imit- Wells, e liquid level in the column 7 l must no chaig esponsively so that the ts pumping ell'ort so that liquid may again collectin the Wells above such predeterinined low level. Thus the sys- I ttlil may operate in cycles of increz sing and decreasing pumping eflo vulues to maintain Within the given limits a predetermined level oi l" lu iquid in the more di. lit Wells. order to ucconiplish this the apparatus shown g'zjenerally to the right of the column 22-3 and of the valve 2? is provided. This apparatus comprises a float chamber 46 receiving liquid from the source otlio uid under pressure 1%, {)l'tiihl'illllf, tirough u ineter l'ifthe iloiv oi li uiid from the source to the float chamber itrollcd by a valve 18 the valve cutadjustable orifice El to supply it liquid :in with water. the level or the Water :olunin icing determined by the i the liquid in the flout chamber to thi rate it l'scharge through at dis- 'pe and by the size it the orifice 51. The i 5-. 0t .sch irn hour the pipe determined by the posi n of u niovuble valve element 54:. The movable valve element is .J e level of liquid in the i e distant Wells greuter tl'iun a predete 'nuned low level, the pi ure exerted upon the diaphragm 52 i cells and 87 from both sides of the orifice. I l? r, at such a time the valve Will startto move o. the left in consequence of the pressure exerted on the vala'eelement Mby the fluid in the cell 84.. This movement continues until i c valve port 75 is uncovered, whereupon fluid irom the source 14, flowing throu i the conduit 32 and passing through the said port, will be communicated to the column e3 through the conduit 113. In th1s u'av the control appa us is effective to accelerate or decrease the pumping effort to :3 d raw more or ass liquid irom the pipe 1 leading to the system served, as may be required, in order to maintain the levels of liquid 111 the u 11 at the predetermined value. The pumping occurs in periods of accelerated pumping and,diminishedpumping efforts.

Referring now generally to the three liquid columns, 22, 2?; and 52, i *villbe seen tl a the column 22 will con. liquid proporiional the suction lilting t are exerted by the pump 9 on :he approach side oi the.

pumpi. e., \villrepreseut a level inversely proportional to the number oi root of \vatcr capable of being lifted by the pump 111 a conduit connected on the approach side oi: the pump iii? s ch conduit 'rvere depending vertically therefrom. 'll'ie higher the level otlhrthe-column thclovverbeing indicated. In the column 52 r .e liquid proportional to the duccd hy the pum this being of the liquid ye pipe 59 lead- 1 I oportroual to the velocu through the discha,

ated re to How in unit of cubic A hi 'h level of the 1 7 cute a low value of flowirom tne prunps, and a lower level in the colunm will indicate 'er rate of :[iow from the pumps. us and exercise a control on the 4 of the liquic in column to cause it accelerate or retard the pumping action. ro pimping action is accelerated Whenever c liquid level in column is lowest, and c 'iping action is diminishedWhenever of liquid in column 23 15; higher than column 22, this occurring, as has "ibed, due to the resultant efiiect diaphra 'ui 24L which controls the val e 2?. The height of liquid in column 22 as has been said, dcto iued l v the value of suction lift on the intake side of the amp and it the value oi" suction lift is known and the velocity oi the liquid in the upsrr t rm the pump, and the column might be discharge conduit 59 leading from the pump is known, then the level of the liquid in all of the outlying Wells is also known, since with a given vcloc v in a larger system, in which case the dis charge pipe 59 Will lead into a Well of a larger capacity than the Wells 11. This larger well may be one of a plurality of such larger and perhaps some smaller Wells served by a distant pump in the same manner generally as does the pump 9 serve the Wells 11, until the collected liquids are conveyed in stages to a point Where they can be finally disposed ot. 1 illustrate in Figs. 1 and 2 such a system, wherein at 90, I show a main pumping station and at 91 and 92, I show auxiliary piunping static s, the auxiliary pumping stations and perhaps the main pumping stations serving a large number of small Wells 11, such. as the Wells 11 of Figs. 3 and i. The pumping stations 91 and 92 are eilective to pump liquids in the larger Wells 93 and 94, which may be adjacent to or remote from the stations 91 and 92, and from each, of these larger stations, of Which a plurality may be provided for each succeeding pumping station, the liquid is collected by such .a succeeding pumping station along the line to the on one side of the 7 pump, the suction httindicated by the column will depend upon the effort necessary to main station 90. Also, the pipe lines for-each of the pumping stations, indicated at 95, 96 and 97 in Figs. 1 and 2, may be elevated one to the other-i. e, the pipe line 96 may be laid at a higher elevation than that of the pipe line 97, and the pipe line 95 may be at a still higher elevation if desired, it the terrain in the district served makes this advisable.

Referring now to Fig. 5, I show in this figure a portion of apparatus adapted to be sub tituted for the apparatus shown in l ig. 3 for operating the piston 13, and which are connected to conduits 34 and i3 so as to move the piston arm 36, the arrangement being such that the rate oi? motion in. accelerating and retarding the pumping may be regulated by means of check valves and adjustable valves to a given rate of motion of the piston 13. By referring to Fig. 5,

it will be seen that in the conduit 43, I pro spectively, and also each contains an adjustable orifice shown at 102 "for the branch 98 and at 103 for the branch 99. By this arrangement, the piston 13 will respond slow y to the admission of fluid into the one or the other cells 35 or 15, since the rite of flow of fluid contained in the cell can be diminished by means of the check valves and adjustable valves herein shown in manner which apparent.

-At Fig. 6, I show a system of branching conduits 10 1, 105 and 106 having adjustable orifices 107, 108, and 109, contained therein, respectively, and contain ingmoreover,respeo tively, check valves 110, 111 and 112. Such branches are adapted to be included between the conduit'113 of Figs. 3 and 1 and the liquid column or stand pipe 23, whereby the rate of" draft from the governing chamber 23 is varied for the different portions thereof and the rate of filling the governing chamber 23 being regulated independent-.y of the rate or draft from the chamber. In this Fig. 6, as in Figs. 3 and 4-, the level of the liquid con.- tained in the column 23 can never fall below the level of the point 111 of Figs. 3 and l and of Fig. 6, wherein the lowermost branch 101 communicates with the chamber 23 at such level. The level 77 corresponds with that level, which will not cause an uncoverin of the liquid seal at any collection well, such as any of the wells 11. The arrangements of Figs. 5 and 6 may be employed in the systems of 3 and 4, wherever it is desired to slow down the corrective action of the apparatus so as to make the system operate smoothly and without violent changes. The arrangements of these f gures can be employed in the same system or separately, according to the requirements of the system.

Itwillbe understood that although in the drawingstor clearness in illustration, 1 have located the diaphragm mechanisms 24, and 55 at different levels, that preferably the diaphragms 2 land 65 will be disposed at the level of the bottom of the columns 23 and respectively, which is at the level of the bottonr78 of the column 23, although this is not essential "for a useful embodiment of my in vention broadly considered; also the relative positions of the valves and the levels of the water or other fluid in the different parts of the system illustrated in the drawings are not to be taken as representing any particular operative relative positions, except as such may be understood from the specification describing the embodiment system and the relative positionsot these parts set forth under different conditions or use above.

Having now described my invention in a particular embodiment, 1 am aware that numerous and extensive departures may be made fromthe embodiment of my invention herein illustrated and described, and which shows one form in which my invention may be embodied, but without departing from the spirit of my invention.

I claim:

1. The method of draining liquid collecting in a plurality of wells distributed over an area comprising the pumping at a central station of the liquid from the wells by reducing below atmospheric pressure the pressure of liquid flowing therefrom at the central station, and regulating the degree of such reduction of pressure inversely according to the flow resulting from a given reduced pressure.

2. Ina fluid system, the combination with a pumping station, of a pipe line leading thereto, a plurality of collection wells aloi'ig said line, ducts from said wells adapted to convey liquid from the wells into the line, said ducts having a lower trap portion intermediate its ends, pumping mechanism at the station, governing means 101' the said mechanism, controlling means for said governing means, said controlling means comprising apparatus diilereutiaily IQSPOIlSlVB to the flow from the mechanism and the suction draft on the approach side of said pumping mechanism to control the operation oil the governing means to increase the pumping ettort of the mechanism whenever the ratio oil pumping eli'ort to liquid yield is increased beyond a predetermined amount, and to decrease such pumping effort when such ratio is decreased.

3. In a drainage system, a drainage conduit leading from a plurality of collection wells to a main station, a duct for each well having a liquid seal trap therein and having an opening disposed near the bottom oi the well, adapted to communicate liquid from the well to said conduit, said conduit being approximately level throughout its length, a pumping mechanism at the main station adapted to draw liquid from the conduit. a discharge conduit leading from the pumping mechanism, governing means for the pumpmg means, said governing means being under the joint control of a first controlling means and a second controlling means, said first means comprising a reciprocable element exposed to opposing pressures from a pair oi sources, one of said pressures being derived from the suction draft on the approach side of the pul'nping mechanism, the other pres sure being derived from a fluid, fluid pressure controlling means to control i'he opposing pressure exerted on the said element by said fluid, said controlling means comprising a movable element operable by a difference of pressures on its two sides, a first pressure on one side of the movable element being proportional to the pressure at a point in the said disc-iarge conduit and a rccond pressure on the other side of the movable element being proportional to the pressure exerted by said fluid, and means responsive to a diiierence between the pressures on the two sides of the movable element to vary the pressure exerted by said fluid upon said reciprocable element.

4%. The method of collecting liquid from in area oi territory towards a pumping station, the le *el oi? which is lens as high as the level. of portions on": o tor ltory, c prising the collecting of the liquid ii wells throughout the territory and by drawing the liquid from the Wells through closed e0nduit 0 Lending from the nnnpinp; station by b 'anrhes projected into each of the Wells a having their open on: s disposed near the hotroins ot their respective Wells and controlling the pumping effort so to regulate, all times, the degree of negative pressure set up i n the conduit at the pumping station so to maintain the levels oit liquid contained in of the wells above the open ends of the branches to lce p the open ends oi all the branches covered with liquid.

*3. In a draining system adaptahh oraining liquid from nearly lover wen; i i territory, comprisii a pumping station, a lipud pump thereat, a plurality oi: liquid coil r r cling; Wells disposed nrorualsthroughout tho territory to he s: red by the station, and a conduit extending iroin the central sea 'tion pun'ip to each oil the Wells, brain-hos o said conduit disposed into each rrcll, eacl hr: nch having an open end adapted it covered With liquid. contained in the well, and at the pumping station responsive to tl e unoi nt of liquid cont; ined l I wcl's, adapted to regulate thi action oi pump to limit the pun eh n'ree wluirein sufiic ont llif'illli i ii i t to that d is re'lt in all i the wells to lrsep the open ends of the said. brai'iches covered with liquid, said regulating means comprising a conduit adapted to conduct a sc 'iarate How of liquid to the pinup on the approach side therc under a e stant head, said conduit being restricted a plurality oi? points in its lengrtlu'aiul 21 monalile member responsive to the pressure of liquid intermediate said restrictiims.

(3V in a draining; sy ein adaptable for draini liquid 'lron': no: crel :u'cus oi h ritory,comprising a pumpnig station, a liquid pump thereat, a plurality oi liquid collectinn; Wells d isposcd a intervals throughout ('18 torritor wto be served by the st tion, ai conduit extendingi roin the central s n 1 pump to oath. of the Wells, branches oi s1 conduitdisposed into each Well, each hr having an open end adapted to be corereg. with liquid contained in the Well, and regula 'ng means at the pumping station, adapted to regulate the action of the pump to limit the punu iing eli'ort tothat degree where n levels (El liquid will be maintained iii the weds from the Wells nearer the central tion to the Wells most remote therei'rom, aw cording to-a gradient wherein the liquid contained in the nearesa wells is sufficient to cover stathe open ends of the conduit branches therein, with a predetermined margin for safety, and wherein the level of liquid in the most remote VLdlS is kept below the junction oi. th iir conduit branches with the main conduit, said dating means conu rising a ing element having an intern idiate in d movable therefrom according to cloncos oi pressure on its two sides, means )crative to communicate a force to one side A 1i? commonsurable with the quid pumping eii ort at any time exerted by the pump, means to connnunica to to the other side of the element a force coininensi-i able to tile yield oi the system under the er: ting puniping e'llj ort, and means ope 'ati'vc to vary the pumping effort according to Variations in the forces exerted upon said governing elcincnt, moving it from its raid intern'iediale balanced posi 7, in a ll! id collecting system, a suction pinup, spaced outlying liquid collecting wells imposed at diiij'erent distaices from s; d

ii pr nip, single line oi pipe adapted. to cominuincato liquid dre in from all said Wells to H in: unnp,adnctha innaloworopen ondtor ttor govprning means in Lil the pun'ipinp action, pressure \hlch is at all "pumping erort exerted by said pump on its h redo, means For exerting a force of pressure, a controller di vrentially "e to departures from a predetermined relation existing between the opposing); :l orees exerted by the derived pressure i said slandarr p ire, cllective to continuously control the ppverimr so as to Vary the sub-atmospheric pressure elli'cctire on the a mroarh side of said pump.

.d r 1 ree 8. ln a .llqlllil collect system, a suction uinp, s aced outljing lupnd collecting wells isposedf at dilleront distances from .aid map, a single line of pipe adapted to coin nunicz to liquid drawn from all said wells to he pun] p, a duct harino a lower open end, for

CD 1 Well comprising a depending branch of pipe, said pump adapted to reduce the pro; 2 existing in the pipe on the aph side o the pump to sub-atn'iospheric f ire, a fi'lxOL-"IIOL common to all said We is it Wei-nil 2e pinuping action, pressure it .ljifi for deriving a force which is at all times coinniensru'able w th the intensity of p 1 lort exerted by said pump on its i means for exerting a force of f l pressure, controller differentially 1 w to do irtures fromv a predetermined relation existing bet teen the opposing P exerted by the derived pressure and said standard pressure, Ll'lQCllVO to continuously control the governor so as to vary the degree of sub-atn'iospheric pressure effective on the approaching side of said pump, and regulating means continuously effective to vary the pressure eliort with which the standard pressure reacts against the said de rived pressures, comprising means operative, dlil'erentially, according to variations from a predetermined relation of said standard pres- Jsure to the rate of yield, by the pipe of liquid under-1 the influence oi the pump.

9. in a liquid collectin system, a suction pump, spacedoutlying liquid collecting wells disposed at diil'erent distances from said pump, single line of pipe adapted to communicate liquid drawn from all said wells to the pump, a du 't ha ing a lower open end, for each well comprising a depending branch. of the pipe, said pump adapted to reduce the fluid pressure existing in the pipe on the ap; roach side of the pump to sub-atmosphcric (sure, a governor common t all said Wells for governing the pumping action, pressure means for deriving a force which is all times comn'iensurable with the intensity oi pumping ei'l'ort exerted by said pump on its approach side, means for exerting a iorce or standard pressure, a controller d i rentially 7 responsive to departures from a predeternned relation existing between the opposing forces exerted the derived pressure and said standard pressure, effective to continuously control the governor so to vary the degree of sub-atmospheric pressure effective on the approach side of said pump, said pressure eilort deriving means co prising a source of fluid supply or relatively known pressure and a conduit for introducing iluid therefrom into tho'pipe, said conduit comfor each well comprising ,ucndinp; branch of the pipe, said pump adap l ii to reeuce the fluid pressure existing; in the pipe on the approach side or the pump to Sllb-it'i'illQSPllQi; pressure, a governor common to all said WOilS for governing the pui'uoing action, pressure means for deriving a force which is at all times commensura'le with the inte, sity of pumping effort exerted by said pump on its approach side, means for exerting a rorc e of standard pressure, a controller differentially responsive to departures from a predeterriving; means comp] sing a conduit disposed to cuect coinnuinication or fluid between a point of relatively asccrtaiuable fluid pressure and the pipe, conduit comprising a receiving chamber having a pair oriiices in its walls, one of said ces disposed to receive fluid, the other oi szud oriices disposed to discharge fluid 1 irem hie chamber. and means for effecting communication or: the pressure etl'ort oi? fluid amber, upon the controller.

a liquid collecting system, a suction aced outlying liquid collecting wells o 7 i at dill'erent distances from said pu up, a single line oi pipe adapted to comi inicatc liquid drawn from all said wells 1 the pump, a duct havin a lower open end, each well con'iprising a depending branch of the pipe, said pump adapted to reduce the ure eristing in the pipe on the approach side oil? the pump to subatmospheric I pressure, a governor common to all side wells for governiugthe pumping action, pressure means for deriving a force which is at all times commensurable with the intensity of pumping etlort exerted by said pump on its approach side, means for exerting a force of standard pressure, a controller diilerentially responsive to departures from a predetermined relation existing between the opposing i orces exerted by the derived pressure and said standard pressure, effective to continuously control the governor so as to vary the degree of sub-atmospheric pressure effective on the approach side of said pump, said governor being so related to the controller and the pump as to invariably respond to variations of control exercised over said governor by said controller to etlect changes in the pumping etl'ort as to tend to restore the predetermined relation existing between the op posing force of said standard pressure and the derived pressure exerted upon said controller.

12. In a liquid collecting system, a suction pump, spaced outlying liquid colle: 'iuo' wells disposed at diiierent distances from said pump, a single line of pipe adapted to communicate liquid drawn from all said wells to the pump, a duct havin a lower open end, for each well comprising a depending branch of the pipe, said pump adapted to reduce the fluid pressure existing in the pipe on the approach side of the pump to sub-atmospheric pressure, a governor common to all said wells for governing the pumping action, pressure means for deriving a force which is at all times commensurable with the intensity of pumping etlort exerted by said pump on its approach side, means for exerting a force of standard pressure, a controller diii erentially responsive to departures from a predeterminded relation existing between the 0p posing forces exerted by the derived pres sure and said standard pressure, efl'ective to continuously control the governor so as to vary the degree of sub-atmospheric pressure effective on the approach side of said pump, and regulating means continuously ell'ective to vary the pressure effort with which the standard pressure reacts against the said derived pressure, comprising means operative dil-lerentially according to variations from a predetermined relation oli said standard pressure to the rate of yield by the pipe of liquid under the influence of the pump, said governor being so related to the controller and the pump as to invariably respond to variations of control exercised over said governor by said controller to cl'l'ect changes in the pumping eii'ort as to tend to restore the predetermined relation existing between the opposing force of said standard pressure and the derived pressure exerted upon said controller.

13. ln a liquid collecting system, a suction pump, spaced outlying liquid collecting wells disposed at different distances from said pump, a single line of pipe adapted to communicate liquid drawn from all said wells to the pump, a duct having a lower open end, for each well comprising a depending branch oi. the pipe, said pump adapted to reduce the fluid pressure existing in the pipe on the approach side oi? the pump to sub-atinospheric pressure, a governor common to all said wells for governing the pun) ping action, pressure means for deriving a force which is at all times commeusurable with the intensity of pumping eii ort exerted by said punrp on its approach side, means for exerting a force of standard pressure, a controller dili'crentially responsive to departures from a predetermined relation existing between the opposing forces exerted by the derived pressure and said standard )IGSSLHQ, effective to continuously control the governor so as to vary the degree of sub-atmospheric pressure efi ective on the approach side of rid pump, said pressure Gl'lOll) deriving means con'iprising a source of fluid supply of relatively known pressure and a conduit for introducing fluid therefrom into the pipe, said conduit comprising a fluid flow receiving chamber having a pair of spaced orifices in its walls, one of said. orifices disposed to receive fluid from the said source, the other of. saidorifices disposed to discharge fluid from the chamber, to

the pipe, and means for efi'ecting communication of the pressure effort of fluid in the chamber, upon the controller, said governor being so related to the controller and the pump as to invariably respond to variations of control exercised over said governor by said controller to effect changes in the pumping effort as to tend to restore the predetermined relation exerted by the opposing force of said standard pressure and the derived pressure exerted upon said controller.

14.. In a liquid collecting system, a suction pump, spaced outlying liquid collecting wells disposed at difli'erent distances from said pump, a single line of pipe adapted to communicate. liquid drawn from all said wells to the pump, a duct having a lower open end, for

each well comprising a depending branch of the pipe, said. pump adapted to reduce the fluid pressure existing in the pipe on the approach side of the pump to sub-atmospheric pressure, a governor common to all said wells for governing the pumping action, pressure means for deriving a force which is at all times commensurable with the intensity of pumping el'lort exerted by said pump on its approach side, means for exerting a force of standard pressure, a controller ditl'ereutially responsive to departure from a prcdetermin ed relation existing between the (imposing forces exerted by the derived pressure and said standard pressure, effective to continuously control the governor so as to vary the degree of sub-atn'iospheric pressure eti'ective on the 0 approach side of said pump, and regulating means continuously effective to vary the pressure cliort, with which the standard pressure reacts against the said derived pressure, comprising means operative diflerentially according to variations from a predetermined relation of said standard pressure to the rate oi yield by the pipe 01": liquid under the influence of the pump, said pressure etl ort deriving means comprising a conduit disposed to cffeet eon'nnunication of fluid between a point of relatively ascertainabie fluid pressure and the pipe, said conduit comprising a fluid flow receiving chamber having a pair of spaced orifices in its walls, one of said orilices disposed to receive fluid, the other of said orifices disposed to discharge fluid from the chamber, and means for effecting communication of the pressure effort of fluid in the chamber, upon the controller, said regulating means operative by successive regulating effects upon said governor and said pump to tend to restore the said predetermined relation of said standard pressure and the said rate of yield.

15. In a liquid collecting system, a suction pump, spaced outlying liquid collecting wells disposed at different distances from said pump, a single line ofpipe adapted to communicate liquid drawn from all said wells to the pump, a duct having a lower open end, for

K lt) each well comprising a depending branch of the pipe, said pump adapted to reduce the fluid pressure existing in the pipe on the approach side of the pump to sub-atmospheric pressure, governor common to all said Wells for governing the pumping action, pressure means for deriving a force Which is at all times commensurable with the intensity of pumping efiort exerted by said pump on its approach side, means for exerting a force of standard pressure, a controller differentially responsive to departures from a predetermined relation existing between the opposing forces exerted by the derived pressure and said standard pressure, effective to continuously control the governor so as to vary the degree oi sub-atn1ospheric pressure ell'ective on.

ing means continuously effective to vary the pressure effort with Which the standard pressure reacts against the said derived pressure,

comprising means operative differentially according to variations from a predetermined relation of said standard pressure to the rate of yield by the pipe of liquid under the influence of the pump, said governor being so related to the controller and the pump as to invariably respond to variations of control exercised over said governor by said controller to effect changes in the pumping effort as to tend to restore the predetermined relations exerted by the opposing force of said standard pressure and the derived pressure exerted upon said contoller, said regulating means operative by successive regulating effects upon said governor and said pump to tend to restore the said predetermined relation of said standard pressure and the said rate of yield.

In testimony whereof I hereunto allix my signature this 19th day of April, 1927.

GEORGE GOGDELL EARL. 

